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R J Sadleir

Showing results (1-10 of 14) with videos related to

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Physiological Measurement|June 8, 2011
Quantification of intraventricular hemorrhage with electrical impedance tomography using a spherical modelT Tang, R J Sadleir
Annals of Biomedical Engineering|July 17, 2007
Modeling skull electrical propertiesR J Sadleir, A Argibay
Physiological Measurement|December 17, 2008
Electrode configurations for detection of intraventricular haemorrhage in the premature neonateR J Sadleir, Te Tang
IEEE Transactions on Bio-Medical Engineering|April 27, 2001
Detection and quantification of intraperitoneal fluid using electrical impedance tomographyR J Sadleir, R A Fox
Annals of Biomedical Engineering|March 19, 2010
A robust current pattern for the detection of intraventricular hemorrhage in neonates using electrical impedance tomographyT Tang, Sungho Oh, R J Sadleir
Kidney International|May 5, 2006
Method for detecting the disconnection of an extracorporeal device using a patient's endogenous electrical voltagesE A Ross, C Briz, R J Sadleir
Neuroimage|April 13, 2010
Can high-field MREIT be used to directly detect neural activity? Theoretical considerationsR J Sadleir, S C Grant, E J Woo
IEEE Transactions on Biomedical Circuits and Systems|July 16, 2013
Biocompatible, high precision, wideband, improved Howland current source with lead-lag compensationA S Tucker, R M Fox, R J Sadleir
Physiological Measurement|February 10, 2009
Normalization of a spatially variant image reconstruction problem in electrical impedance tomography using system blurring propertiesSungho Oh, Te Tang, A S Tucker, et al.
AIP Advances|November 18, 2022
Analytic modeling of neural tissue: II. Nonlinear membrane dynamicsB L Schwartz, S M Brown, J Muthuswamy, et al.
Pageof 2

Showing results (1-10 of 14) with videos related to

Sort By:
Pageof 2
Physiological Measurement|June 8, 2011
Quantification of intraventricular hemorrhage with electrical impedance tomography using a spherical modelT Tang, R J Sadleir
Annals of Biomedical Engineering|July 17, 2007
Modeling skull electrical propertiesR J Sadleir, A Argibay
Physiological Measurement|December 17, 2008
Electrode configurations for detection of intraventricular haemorrhage in the premature neonateR J Sadleir, Te Tang
IEEE Transactions on Bio-Medical Engineering|April 27, 2001
Detection and quantification of intraperitoneal fluid using electrical impedance tomographyR J Sadleir, R A Fox
Annals of Biomedical Engineering|March 19, 2010
A robust current pattern for the detection of intraventricular hemorrhage in neonates using electrical impedance tomographyT Tang, Sungho Oh, R J Sadleir
Kidney International|May 5, 2006
Method for detecting the disconnection of an extracorporeal device using a patient's endogenous electrical voltagesE A Ross, C Briz, R J Sadleir
Neuroimage|April 13, 2010
Can high-field MREIT be used to directly detect neural activity? Theoretical considerationsR J Sadleir, S C Grant, E J Woo
IEEE Transactions on Biomedical Circuits and Systems|July 16, 2013
Biocompatible, high precision, wideband, improved Howland current source with lead-lag compensationA S Tucker, R M Fox, R J Sadleir
Physiological Measurement|February 10, 2009
Normalization of a spatially variant image reconstruction problem in electrical impedance tomography using system blurring propertiesSungho Oh, Te Tang, A S Tucker, et al.
AIP Advances|November 18, 2022
Analytic modeling of neural tissue: II. Nonlinear membrane dynamicsB L Schwartz, S M Brown, J Muthuswamy, et al.
Pageof 2